CN215810846U

CN215810846U - Movable infrared positioning wiring device

Info

Publication number: CN215810846U
Application number: CN202121164385.7U
Authority: CN
Inventors: 姚金山
Original assignee: Chengdu Shanyou Hvac Engineering Co ltd
Current assignee: Chengdu Shanyou Hvac Engineering Co ltd
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2022-02-11
Anticipated expiration: 2031-05-27

Abstract

The utility model discloses a movable infrared positioning and routing device which is arranged on a pair of parallel keels on an indoor roof and comprises an infrared transmitter and an infrared receiver, wherein the infrared transmitter is connected with the keels in a sliding manner and transmits infrared rays; the infrared receiver is connected with the keel in a sliding manner, the infrared receiver is arranged in parallel with the infrared transmitter, a receiving end of the infrared receiver faces the infrared transmitter, and the infrared receiver is used for receiving infrared rays transmitted by the infrared transmitter; and the infrared transmitter and the infrared receiver are both provided with positioning components, and the positioning components are used for describing a wiring starting point and a wiring end point on the roof. Through infrared transmitter and infrared receiver, the biggest interval that can automatic measurement pipeline set up, and according to different operating modes through the locating component portrayal walk line inception point with walk the line terminal point, realize automatic positioning and walk the line, need not artifical setting-out.

Description

Movable infrared positioning wiring device

Technical Field

The utility model relates to the field of roof pipeline routing positioning devices, in particular to a movable infrared positioning routing device.

Background

In the engineering construction process, a plurality of pipelines are distributed on the indoor roof, and especially in the air conditioner installation process, the routing of the air conditioner needs to be planned in advance on the roof so as not to influence other functional routing. At present, the conventional pipeline routing positioning method usually adopts a manual measurement method, and the traditional manual mapping method generates uncontrollable errors due to the technical level of each technician.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a movable infrared positioning and routing device, wherein the distance and the direction of pipeline routing are mapped by infrared rays, the mapping result is accurate, and an error which is considered to be uncontrollable cannot be generated. The movable infrared positioning and routing device is arranged on a pair of parallel keels on an indoor roof, and comprises an infrared transmitter and an infrared receiver, wherein the infrared transmitter is connected with the keels in a sliding manner, and the infrared transmitter transmits infrared rays; the infrared receiver is connected with the keel in a sliding manner, the infrared receiver is arranged in parallel with the infrared transmitter, a receiving end of the infrared receiver faces the infrared transmitter, and the infrared receiver is used for receiving infrared rays transmitted by the infrared transmitter; and the infrared transmitter and the infrared receiver are both provided with positioning components, and the positioning components are used for describing a wiring starting point and a wiring end point on the roof.

According to the embodiment of the utility model, the infrared emitter comprises an infrared emitting bracket, an infrared generating component and a first locking component, wherein the infrared emitting bracket is connected with the keel in a sliding manner; the infrared generating component is fixedly connected with the infrared emission bracket, and generates and emits infrared rays; the first locking assembly is used for locking the position of the infrared emission bracket.

According to the embodiment of the utility model, the infrared emission support comprises two first mounting plates and a second mounting plate, the two first mounting plates are respectively arranged on two sides of the keel, the second mounting plate is connected with the two first mounting plates, and the second mounting plate is fixedly connected with the two first mounting plates.

According to the embodiment of the utility model, a first mounting cavity is formed in the first mounting plate, a first pulley and a first fixing rod are arranged in the first mounting cavity, the first fixing rod is fixedly connected with the inner wall of the first mounting cavity, the first pulley is connected with the first fixing rod in a sliding manner, and the first pulley extends out of the first mounting plate and is connected with the keel in a sliding manner.

According to the embodiment of the utility model, the infrared receiver comprises an infrared receiving bracket, an infrared receiving part and a second locking assembly, wherein the infrared receiving bracket is connected with the keel in a sliding manner; the infrared receiving component is used for receiving infrared rays emitted by the infrared emitter; the second locking assembly is used for locking the position of the infrared receiving bracket.

According to the embodiment of the utility model, the infrared receiving bracket comprises two third mounting plates and a fourth mounting plate, the two third mounting plates are respectively arranged on two sides of the keel, the fourth mounting plate is connected with the two third mounting plates, and the fourth mounting plate is fixedly connected with the two third mounting plates.

According to the embodiment of the utility model, a second mounting cavity is formed in the third mounting plate, a second pulley and a second fixing rod are arranged in the second mounting cavity, the second fixing rod is fixedly connected with the inner wall of the second mounting cavity, the second pulley is connected with the second fixing rod in a sliding manner, and the second pulley extends out of the third mounting plate and is connected with the keel in a sliding manner.

According to the embodiment of the utility model, the positioning assembly comprises a telescopic rod and a positioning component, the telescopic rod is connected with the infrared emitter or the infrared receiver, the telescopic rod extends out of the infrared emitter or the infrared receiver, the arrangement direction of the telescopic rod is parallel to the roof, the telescopic rod arranged on the infrared emitter and the telescopic rod arranged on the infrared receiver are arranged in a collinear way and are arranged oppositely; the positioning component is fixedly connected with the telescopic rod, and the setting direction of the positioning component faces the roof and is perpendicular to the setting direction of the telescopic rod.

According to an embodiment of the present invention, the infrared transmitter, the infrared receiver and the positioning assembly are electrically connected.

By adopting the technical scheme, the utility model mainly has the following technical effects:

1. the maximum distance set by the pipeline can be automatically measured through the infrared transmitter and the infrared receiver, and the starting point and the end point of the routing are carved through the positioning assembly according to different working conditions, so that the automatic positioning and routing are realized, and manual line drawing is not needed;

2. the first locking assembly locks the position of the infrared transmitter to prevent the position of the infrared transmitter from changing in the process of the positioning assembly engraving, and the second locking assembly locks the position of the infrared receiver to prevent the position of the infrared receiver from changing in the process of the positioning assembly engraving, so that the position reliability of the wiring starting point and the wiring end point is improved;

3. the position of the positioning component is changed through the telescopic rod, the wiring starting point and the wiring end point under different working conditions can be determined, and the applicability of the movable infrared positioning wiring device is improved.

Drawings

FIG. 1 is a schematic diagram of a movable infrared positioning and routing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an infrared emitter according to an embodiment of the utility model;

FIG. 3 is a schematic view of a first mounting plate according to an embodiment of the utility model;

FIG. 4 is a schematic view of an infrared receiver according to an embodiment of the utility model;

FIG. 5 is a schematic view of a third mounting plate according to an embodiment of the utility model.

In the figure: 1. a roof; 2. a keel; 3. an infrared emitter; 31. an infrared emitting mount; 311. A first mounting plate; 3111. a first mounting cavity; 312. a second mounting plate; 313. a first pulley; 314. a first fixing lever; 32. an infrared generating component; 33. a first locking assembly; 4. An infrared receiver; 41. an infrared receiver mount; 411. a third mounting plate; 4111. a second mounting cavity; 412. a fourth mounting plate; 413. a second pulley; 414. a second fixing bar; 42. An infrared receiving part; 43. a second locking assembly; 5. a positioning assembly; 51. a telescopic rod; 52. And a positioning member.

Detailed Description

The following description of the embodiments of the present invention is provided in connection with the accompanying drawings.

Referring to fig. 1, the utility model discloses a movable infrared positioning and routing device, which is arranged on a pair of parallel keels 2 on an indoor roof 1 and comprises an infrared transmitter 3 and an infrared receiver 4, wherein the infrared transmitter 3 is connected with the keels 2 in a sliding manner, the infrared transmitter 3 transmits infrared rays, the infrared receiver 4 is connected with the keels 2 in a sliding manner, the infrared receiver 4 is arranged in parallel with the infrared transmitter 3, a receiving end of the infrared receiver 4 faces the infrared transmitter 3, and the infrared receiver 4 is used for receiving the infrared rays transmitted by the infrared transmitter 3. And the infrared transmitter 3 and the infrared receiver 4 are both provided with positioning components 5, and the positioning components 5 are arranged at the initial point and the terminal point of the client wiring on the roof 1.

Referring to fig. 2, the infrared emitter 3 in this embodiment includes an infrared emitting bracket 31, an infrared generating component 32, and a first locking component 33, where the infrared emitting bracket 31 is slidably connected to the keel 2; the infrared generating component 32 is fixedly connected with the infrared emission bracket 31, and the infrared generating component 32 generates and emits infrared rays; the first locking assembly 33 is used to lock the position of the infrared emitting mount 31 on the keel 2. Referring to fig. 3, the ir-emitting bracket 31 specifically includes two first mounting plates 311 and a second mounting plate 312, the two first mounting plates 311 are respectively disposed on two sides of the keel 2, and the second mounting plate 312 is connected to the two first mounting plates 311 and is fixedly connected to the two first mounting plates 311.

Referring to fig. 3, a first mounting cavity 3111 is formed in the first mounting plate 311, a first pulley 313 and a first fixing rod 314 are disposed in the first mounting cavity 3111, the first fixing rod 314 is fixedly connected to an inner wall of the first mounting cavity 3111, the first pulley 313 is slidably connected to the first fixing rod 314, and the first pulley 313 extends out of the first mounting plate 311 and is slidably connected to the keel 2. Two first pulleys 313 of two first mounting panels 311 and keel 2's both sides sliding connection, when operating personnel slided infrared emitter 3, first pulley 313 slided and slides on keel 2 in order to drive infrared emitter 3, and operating personnel slides infrared emitter 3 to the position that corresponds the position and adjust infrared emitter 3.

Referring to fig. 4, the infrared receiver 4 in this embodiment includes an infrared receiver bracket 41, an infrared receiving part 42, and a second locking assembly 43, wherein the infrared receiver bracket 41 is slidably connected to the keel 2; the infrared receiver is used for receiving infrared rays emitted by the infrared emitter 3, and the second locking assembly 43 is used for locking the position of the infrared receiver bracket 41 on the keel 2. The infrared receiver bracket 41 in this embodiment includes two third mounting plates 411 and a fourth mounting plate 412, the two third mounting plates 411 are respectively disposed on two sides of the keel 2, and the fourth mounting plate 412 is connected to the two third mounting plates 411 and is fixedly connected to the two third mounting plates 411.

A second mounting cavity 4111 is formed in the third mounting plate 411 in this embodiment, a second pulley 413 and a second fixing rod 414 are arranged in the second mounting cavity 4111, the second fixing rod 414 is fixedly connected to the inner wall of the second mounting cavity 4111, the second pulley 413 is slidably connected to the second fixing rod 414, and the second pulley 413 extends out of the third mounting plate 411 and is slidably connected to the keel 2. When an operator installs the infrared receiver 4, the infrared emitter 3 is firstly opened, then the infrared receiver 4 slides on the keel 2, the infrared receiving part 42 stops moving the position of the infrared receiving part after receiving the infrared rays emitted by the infrared emitter 3, and the second locking component 43 is used for fixing the position of the infrared receiver bracket 41 on the keel 2.

Referring to fig. 2, the positioning assembly 5 in this embodiment includes an expansion link 51 and a positioning member 52, the expansion link 51 is connected to the infrared emitter 3 or the infrared receiver 4, the expansion link 51 extends out of the infrared emitter 3 or the infrared receiver 4, the setting direction of the expansion link 51 is parallel to the roof 1, the expansion link 51 disposed on the infrared emitter 3 and the expansion link 51 disposed on the infrared receiver 4 are arranged in a collinear manner and are opposite to each other, the positioning member 52 is fixedly connected to the expansion link 51, and the setting direction of the positioning member 52 faces the roof 1 and is perpendicular to the setting direction of the expansion link 51. The positioning assembly 5 in this embodiment can move horizontally through the telescopic rod 51, and the telescopic rod 51 can also move in the vertical direction to drive the positioning component 52 to scribe a wiring starting point and a wiring end point on the roof 1.

In order to avoid the position error caused by manual engraving, the infrared emitter 3, the infrared receiver 4 and the positioning component 5 in the embodiment are all electrically connected, and when the infrared receiver 4 receives the infrared rays emitted by the infrared emitter 3, the telescopic rod 51 moves to the corresponding position according to the preset conditions, so that the starting point and the end point of the wiring are engraved on the roof 1. In the preset conditions in this embodiment, the telescopic rods 51 disposed on the infrared emitter 3 and the telescopic rods 51 disposed on the infrared receiver 4 may move toward the middle in a symmetrical manner, or may also move as a single telescopic rod 51, and the other telescopic rod 51 does not move to accurately depict the routing starting point and the routing ending point.

The specific implementation principle of the utility model is as follows: the working personnel plan the length of the pipeline in advance and preset the length into the positioning component 5, and the working personnel move the infrared emitter 3 to the corresponding position of the keel 2 and then use the first locking component 33 to lock the infrared emitter 3; the staff moves infrared receiver 4 to the corresponding position and locks infrared receiver 4, and after infrared receiver 4 received the signal that infrared emitter 3 sent, locating component 5 removed telescopic link 51 according to the preset condition, and telescopic link 51 drives locating part 52 and moves to the corresponding position on roof 1 and carves down on roof 1 and walk line initial point and walk the line terminal point.

The above embodiments are only for illustrating the utility model and are not to be construed as limiting the utility model, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model, therefore, all equivalent technical solutions also belong to the scope of the utility model, and the scope of the utility model is defined by the claims.

Claims

1. The utility model provides a portable infrared positioning walks traditional thread binding putting, its sets up on the fossil fragments of a pair of parallel on indoor roof, its characterized in that includes:

the infrared emitter is connected with the keel in a sliding mode and emits infrared rays; and

the infrared receiver is connected with the keel in a sliding manner, the infrared receiver is arranged in parallel with the infrared transmitter, a receiving end of the infrared receiver faces the infrared transmitter, and the infrared receiver is used for receiving infrared rays transmitted by the infrared transmitter;

and the infrared transmitter and the infrared receiver are both provided with positioning components, and the positioning components are used for describing a wiring starting point and a wiring end point on the roof.

2. A movable infrared positioning and routing device according to claim 1, characterized in that:

the infrared emitter includes:

the infrared emission bracket is connected with the keel in a sliding manner;

the infrared generating component is fixedly connected with the infrared emission bracket and generates and emits infrared rays; and

the first locking assembly is used for locking the position of the infrared emission bracket.

3. A movable infrared positioning and routing device according to claim 2, characterized in that:

the infrared emission support includes:

the keel structure comprises two first mounting plates and a second mounting plate, wherein the two first mounting plates are arranged on two sides of the keel respectively, the second mounting plate is connected with the two first mounting plates, and the second mounting plate is fixedly connected with the two first mounting plates.

4. A movable infrared positioning and routing device according to claim 3, characterized in that:

first installation cavity has been seted up in the first mounting panel, be provided with first pulley and first dead lever in the first installation cavity, first dead lever with first installation intracavity wall fixed connection, first pulley with first dead lever sliding connection, first pulley stretches out first mounting panel with fossil fragments sliding connection.

5. A movable infrared positioning and routing device according to claim 1, characterized in that:

the infrared receiver includes:

the infrared receiving bracket is connected with the keel in a sliding manner;

the infrared receiving component is used for receiving the infrared rays emitted by the infrared emitter; and

and the second locking assembly is used for locking the position of the infrared receiving bracket.

6. A movable infrared positioning and routing device according to claim 5, characterized in that:

the infrared receiving bracket includes:

the keel comprises two third mounting plates and a fourth mounting plate, wherein the two third mounting plates are arranged on two sides of the keel respectively, the fourth mounting plate is connected with the two third mounting plates, and the fourth mounting plate is fixedly connected with the two third mounting plates.

7. A movable infrared positioning and routing device according to claim 6, characterized in that:

a second mounting cavity is formed in the third mounting plate, a second pulley and a second fixing rod are arranged in the second mounting cavity, the second fixing rod is fixedly connected with the inner wall of the second mounting cavity, the second pulley is connected with the second fixing rod in a sliding mode, and the second pulley extends out of the third mounting plate and the keel in a sliding mode.

8. A movable infrared positioning and routing device according to claim 1, characterized in that:

the positioning assembly comprises a telescopic rod and a positioning component, the telescopic rod is connected with the infrared emitter or the infrared receiver, the telescopic rod extends out of the infrared emitter or the infrared receiver, the arrangement direction of the telescopic rod is parallel to the roof, and the telescopic rod arranged on the infrared emitter and the telescopic rod arranged on the infrared receiver are arranged in a collinear manner and are arranged oppositely; the positioning component is fixedly connected with the telescopic rod, and the setting direction of the positioning component faces the roof and is perpendicular to the setting direction of the telescopic rod.

9. A movable infrared positioning and routing device according to claim 1, characterized in that:

the infrared transmitter, the infrared receiver and the positioning component are electrically connected.